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2nd Edition2nd Edition
DYNAMICS OFHUMAN GAITDYNAMICS OFHUMAN GAIT
Christopher L VaughanBrian L Davis
Jeremy C OConnor
Christopher L VaughanBrian L Davis
Jeremy C OConnor
Dynamicsof
Human Gait(Second Edition)
Christopher L Vaughan, PhDUniversity of Cape Town
Brian L Davis, PhDCleveland Clinic Foundation
Jeremy C OConnor, BSc (Eng)University of Cape Town
Kiboho PublishersCape Town, South Africa
South African State Library Cataloguing-in-Publication Data
Vaughan, Christopher LDynamics of human gait / Christopher L Vaughan, Brian L Davis, Jeremy C OConnor
Includes bibliographical references and index.
1. Gait in humansI Title612.76
ISBN: 0-620-23558-6 Dynamics of Human Gait (2nd edition) by CL Vaughan, BL Davis andJC OConnor
ISBN: 0-620-23560-8 Gait Analysis Laboratory (2nd edition) by CL Vaughan, BL Davis andJC OConnor
First published in 1992
Copyright 1999 by Christopher L Vaughan
All rights reserved. Except for use in a review, the reproduction or utilisation of this work in any form orby any electronic, mechanical, or other means, now known or hereafter invented, including xerography,photocopying and recording, and in any information storage and retrieval system, is forbidden withoutthe written permission of the publisher. The software is protected by international copyright law andtreaty provisions. You are authorised to make only archival copies of the software for the sole purposeof backing up your purchase and protecting it from loss.
The terms IBM PC, Windows 95, and Acrobat Reader are trademarks of International Business Machines,Microsoft and Adobe respectively.
Editor: Christopher VaughanCD Replication: Sonopress South AfricaText Layout: Roumen Georgiev and Narima PandaySoftware Design: Jeremy OConnor, Michelle Kuttel and Mark de ReusCover Design: Christopher Vaughan and Brian HedenskogIllustrations: Ron Ervin, Christopher Vaughan and Roumen GeorgievPrinter: Mills Litho, Cape Town
Printed in South Africa
Kiboho PublishersP.O. Box 769Howard Place, Western Cape 7450South Africahttp://www.kiboho.co.za/GaitCDe-mail: GaitCD@kiboho.co.za
This book is dedicated to our families:
Joan, Bronwyn and Gareth Vaughan;Tracy, Sean and Stuart Davis;
andthe OConnor Family.
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Contents
About Dynamics of Human Gait viiAbout Gait Analysis Laboratory ixAcknowledgments xi
Chapter 1 In Search of the Homunculus 1Top-Down Analysis of Gait 2Measurements and the Inverse Approach 4Summary 6
Chapter 2 The Three-Dimensional and Cyclic Nature of Gait 7Periodicity of Gait 8Parameters of Gait 12Summary 14
Chapter 3 Integration of Anthropometry, Displacements,and Ground Reaction Forces 15
Body Segment Parameters 16Linear Kinematics 22Centres of Gravity 29Angular Kinematics 32Dynamics of Joints 36Summary 43
Chapter 4 Muscle Actions Revealed Through Electromyography 45Back to Basics 45Phasic Behaviour of Muscles 52Relationship Between Different Muscles 55Summary 62
Chapter 5 Clinical Gait Analysis A Case Study 63Experimental Methods 64Results and Discussion 65Summary 76
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Appendix A Dynamic Animation Sequences 77
Appendix B Detailed Mathematics Used in GaitLab 83
Appendix C Commercial Equipment for Gait Analysis 107
References 133
Index 137
CONTENTS
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About Dynamicsof Human Gait
This book was created as a companion to the GaitLab software package.Our intent was to introduce gait analysis, not to provide a comprehensiveguide. We try to serve readers with diverse experience and areas of interestby discussing the basics of human gait as well as some of the theoretical,biomechanical, and clinical aspects.
In chapter 1 we take you in search of the homunculus, the little beinginside each of us who makes our walking patterns unique. We represent thewalking human as a series of interconnected systems neural, muscular,skeletal, mechanical, and anthropometric that form the framework fordetailed gait analysis.
The three-dimensional and cyclical nature of human gait is described inchapter 2. We also explain how many of the relevant parameters can beexpressed as a function of the gait cycle, including kinematics (e.g., height oflateral malleolus), kinetics (e.g., vertical ground reaction force), and muscleactivity (e.g., EMG of rectus femoris).
In chapter 3 we show you how to use the framework constructed in thefirst two chapters to integrate anthropometric, 3-D kinematic, and 3-D forceplate data. For most readers this will be an important chapter it is herethat we suggest many of the conventions we believe to be lacking in three-dimensional gait analysis. Although conceptually rigorous, the mathemati-cal details are kept to a minimum to make the material accessible to all stu-dents of human motion. (For the purists interested in these details, that infor-mation is in Appendix B.)
In chapter 4 we describe the basics of electromyography (EMG) and howit reveals the actions of the various muscle groups. We discuss some of thetechniques involved and then illustrate the phasic behaviour of muscles dur-ing the gait cycle and describe how these signals may be statistically analysed.
One of the purposes of this book is to help clinicians assess the gaits oftheir patients. Chapter 5 presents a case study of a 23 year-old-man withcerebral palsy. We have a complete set of 3-D data for him that can beprocessed and analyzed in GaitLab.
Beginning in Appendix A we use illustrated animation sequences to em-phasize the dynamic nature of human gait. By carefully fanning the pages of
viii
the appendixes, you can get a feel for the way the human body integratesmuscle activity, joint moments, and ground reaction forces to produce arepeatable gait pattern. These sequences bring the walking subject to lifeand should provide you with new insights.
The detailed mathematics used to integrate anthropometry, kinematics,and force plate data and to generate 3-D segment orientations, and 3-D jointforces and moments are presented in Appendix B. This material, which isthe basis for the mathematical routines used in GaitLab, has been includedfor the sake of completeness. It is intended for researchers who may chooseto include some of the equations and procedures in their own work.
The various pieces of commercially available equipment that may be usedin gait analysis are described and compared in Appendix C. This summaryhas been gleaned from the World Wide Web in late 1998 and you should beaware that the information can date quite rapidly.
Dynamics of Human Gait provides a solid foundation for those new togait analysis, while at the same time addressing advanced mathematical tech-niques used for computer modelling and clinical study. As the first part ofGait Analysis Laboratory, the book should act as a primer for your explora-tion within the GaitLab environment. We trust you will find the materialboth innovative and informative.
ABOUT DYNAMICS OF HUMAN GAIT
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About Gait AnalysisLaboratory
Gait Analysis Laboratory has its origins in the Department of BiomedicalEngineering of Groote Schuur Hospital and the University of Cape Town. Itwas in the early 1980s that the three of us first met to collaborate on thestudy of human walking. Our initial efforts were simple and crude. Ourtwo-dimensional analysis of children with cerebral palsy and nondisabledadults was performed with a movie camera, followed by tedious manualdigitizing of film in an awkward minicomputer environment. We concludedthat others travelling this road should have access on a personal com-puter to material that conveys the essential three-dimensional and dy-namic nature of human gait. This package is a result of that early thinkingand research.There are three parts to Gait Analysis Laboratory: this book, Dynamics of
Human Gait, the GaitLab software, and the instruction manual on the insidecover of the CD-ROM jewel case. In the book we establish a framework ofgait analysis and explain our theories and techniques. One of the notablefeatures is the detailed animation sequence that begins in Appendix A. Thesewalking figures are analogue counterparts to the digital animation presentedin Animate, the Windows 95 software that is one of the applications in theGaitCD package. GaitLabs sizable data base lets you explore and plot morethan 250 combinations of the basic parameters used in gait analysis. Thesecan be displayed in a variety of combinations, both graphically and with stickfigure animation.Weve prepared this package with the needs of all students of human move-
ment in mind. Our primary objective has been to make the theory and toolsof 3D gait analysis available to the person with a basic knowledge of me-chanics and anatomy and access to a personal computer equipped with Win-dows 95. In this way we believe that this package will appeal to a wideaudience. In particular, the material should be of interest to the followinggroups:
Students and teachers in exercise science and physiotherapy Clinicians in orthopaedic surgery, physiotherapy, podiatry,
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rehabilitation, neurology, and sports medicine Researchers in biomechanics, kinesiology, biomedical engineering, and
the movement sciences in general
Whatever your specific area of interest, after working with Gait AnalysisLaboratory you should have a much greater appreciation for the human lo-comotor apparatus, particularly how we all manage to coordinate move-ment in three dimensions. These powerful yet affordable tools were de-signed to provide new levels of access to the complex data generated by amodern gait analysis laboratory. By making this tec
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